KR100202942B1 - Monitor high voltage output transistor protection circuit - Google Patents

Abstract

The present invention relates to a high voltage output transistor protection circuit of a monitor that can protect a high voltage output transistor when a high voltage is momentarily input. The present invention relates to a high voltage drive transformer into which a horizontal oscillation signal is input, and a high voltage output connected to an output terminal of the high voltage drive transformer. A high voltage output of a monitor comprising a transistor protection portion for protecting a transistor, a high voltage output transistor connected to an output terminal of the transistor protection portion, a damper diode connected to a collector of the high voltage output transistor, a supply capacitor and a flyback transformer. The circuit further includes a high voltage blocking means for blocking a momentary high voltage between the base terminal and the collector terminal of the high voltage output transistor.

Description

Monitor high voltage output transistor protection circuit

1 is a circuit diagram using a high voltage output transistor of a conventional monitor.

2 is a high-voltage output transistor protection circuit diagram of a monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: high voltage chopper transformer 2: transistor protection

3: high voltage interrupt means TR1: high voltage output transistor

TR2: Transistor R1-R5: Resistor

D1-D3: Diode C1, C2: Capacitor

FBT: Flyback Trans

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor, in particular, a high voltage output transistor of a monitor that can protect the high voltage output transistor from being destroyed for a certain period of time when a high voltage is momentarily applied to the collector terminal of the high voltage output transistor during power on / off or mode switching. It relates to a protection circuit.

Referring to the circuit configuration of the high-voltage output portion of the conventional monitor, as shown in FIG. 1, a high-voltage drive transformer 1 to which a horizontal oscillation signal is input, and a high-voltage output connected to an output terminal of the high-voltage drive transformer 1 are shown. A transistor protection unit 2 composed of a diode D1 and a resistor R1 protecting the transistor TR1, a high voltage output transistor TR1 connected to an output terminal of the transistor protection unit 2, and the transistor TR1; And a damper diode (D2), a supply capacitor (C1), and a flyback transformer (FBT) connected to the collector.

In the conventional high voltage output circuit configured as described above, a high peak current flows through the collector of the transistor TR1 when the instantaneous high voltage is introduced into the base of the high voltage output transistor TR1 due to power on / off, mode switching, or abnormal operation. Shorting to the side may not only damage the transistor TR1 but also damage other components.

This high voltage is designed to solve such a conventional problem, and to provide a high voltage output transistor protection circuit of a monitor that can protect the transistor from being damaged for a certain time when the high voltage is momentarily applied to the high voltage output transistor. There is this.

The present invention for achieving the above object is a high voltage drive transformer to which a horizontal oscillation signal is input, a transistor protection unit connected to the output terminal of the high voltage drive transformer to quickly discharge the accumulated current remaining in the high voltage output transistor, and A high voltage output circuit of a monitor comprising a high voltage output transistor connected to an output end of a transistor protection unit, a damper diode connected to a collector of the high voltage output transistor, a supply capacitor and a flyback transformer, the base end of the high voltage output transistor being connected to the base end of the high voltage output transistor. It is characterized in that it further comprises a high-voltage blocking means that can block when the instantaneous high voltage is drawn between the collector stage.

Hereinafter, an embodiment of the high voltage output transistor protection circuit of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of the present invention is connected to the high-voltage drive transformer 1, the horizontal oscillation signal is input, and the output terminal of the high-voltage drive transformer (1) to quickly discharge the accumulated current remaining in the high-voltage output transistor (TR1) A transistor protection unit 2 composed of a diode D1 and a resistor R1 protecting the transistor; a high voltage output transistor TR1 connected to an output terminal of the transistor protection unit 2; and the transistor TR1. In the high-voltage output circuit of the monitor including a damper diode (D2) connected to the collector of the supply, supply capacitor (C1) and flyback transformer (FBT), the connection between the base end and the collector end of the transistor (TR1) It is configured to further include a high-pressure blocking means (3) that can block when the instantaneous high voltage is drawn.

In addition, the high-voltage cut-off means 3 is a resistor (R2) (R3) for distributing voltage, a diode (D3) connected to the contact of the resistor (R2) (R3) and conducting when overvoltage draw, and the diode ( A capacitor C2 connected to the cathode end of D3 to remove the high signal ripple, and a resistor R4 connected to the contacts of the diode D3 and the capacitor C2 to maintain the conduction potential value of the transistor TR2. ) And a resistor R5 connected in parallel with the resistor R4 to stabilize the base inlet current of the transistor TR1.

According to the present invention configured as described above, when the normal voltage is applied to the base of the high voltage output transistor TR1, the voltage distributed by the resistors R2 and R3 of the high voltage interrupting means 3 conducts the diode D3. In this case, the transistor TR2 is turned off.

Therefore, when a normal current is applied to the base of the transistor TR1, the transistor TR1 is turned on, so that the current output from the flyback transformer FBT flows to the emitter through the collector of the transistor TR1, thereby normalizing. At this time, the transistor TR1 is not damaged.

If the instantaneous high voltage is drawn through the transistor protection unit 2 due to power on / off, mode switching, or abnormal operation, this high voltage is low-voltage distributed by the resistors R2 and R3 of the high-voltage blocking means 3. The diode D3 is then conducted and applied to the base of the transistor TR2.

Accordingly, the transistor TR2 is turned on so that the high voltage from the flyback transformer FBT flows through the transistor TR2 to the ground side.

That is, when the instantaneous high voltage is applied, the high voltage is bypassed through the high voltage interrupting means 3 so that the high voltage output transistor TR1 is turned off so that the transistor TR1 is not damaged even when the high voltage is applied.

As described above, the present invention protects the high voltage output transistor TR1 and other components by bypassing the high voltage through the high voltage blocking means 3 when the power is turned on / off, when the mode is changed, or when the high voltage is drawn due to abnormal operation. It can work.

Claims (2)

A high voltage drive transformer 1 to which a high voltage horizontal drive signal is input, a transistor protection unit 2 connected to an output terminal of the high voltage drive transformer to protect the high voltage output transistor, and a high voltage output transistor connected to an output terminal of the transistor protection unit. In the high voltage output circuit of the monitor including TR1, a diode D2 connected to the collector of the transistor, a supply capacitor C1 and a flyback transformer FBT, the high voltage output transistor TR1. And a high voltage interrupting means (3) connected between the base end and the collector end of the circuit to bypass when a momentary high voltage is drawn therein. The diode D3 according to claim 1, wherein the high voltage interrupting means 3 is connected to a contact between the resistors R2 and R3 for distributing the voltage and the resistors R2 and R3, and the diode D3 is conducted when the high voltage is drawn. And a condenser C2 connected to the cathode end of the diode D3 to remove high signal ripple, and a contact potential value of the transistor TR2 connected to a contact between the diode D3 and the condenser C2. And a resistor (R5) connected in parallel with the resistor (R4) to stabilize the base inrush current of the transistor (TR2).